Influence of telework during the Covid-19 pandemic on cervical pain

Maria Izabel Pereira  Messias; Marcelo Lourenço da  Silva; Josie Resende Torres da  Silva; Edvaldo Cardoso

doi:10.33448/rsd-v12i2.40274

Authors

Maria Izabel Pereira Messias Federal University of Alfenas https://orcid.org/0000-0002-0741-9221
Marcelo Lourenço da Silva Federal University of Alfenas https://orcid.org/0000-0002-5523-5910
Josie Resende Torres da Silva Federal University of Alfenas https://orcid.org/0000-0002-6679-2675
Edvaldo Cardoso Federal University of Alfenas https://orcid.org/0000-0002-9701-450X

DOI:

https://doi.org/10.33448/rsd-v12i2.40274

Keywords:

Neck pain; Work; Prevalence; Telework; Quarantine; Covid-19.

Abstract

Objective. This is an integrative review to analyze the factors that influenced the prevalence of neck pain in the period before the Covid-19 pandemic and compare it with the factors that caused neck pain during the pandemic. Methods. The bibliographic survey was divided into two different steps: the first was to include articles published between 2015 and 2019 with the selection of 18 articles and used the following keywords: neck pain, work, and prevalence; the databases were PubMed and Google Academic. The second step was to analyze articles published between 2020 and 2021 in the context of the pandemic and the keywords were: cervical pain, telework, quarantine, and Covid-19. The searches were conducted using the Scielo, PubMed, and Google Scholar databases. Results. With the analysis of the results found, it became evident that mental health and incorrect ergonomics differentiated the occurrence of neck pain in the pandemic compared to the period before the pandemic. Conclusion. Furthermore, teleworking has a great tendency to be a working model in force even after the release of the pandemic. It is noticed that it will be necessary for companies to provide adequate means for employees to work remotely to decrease damage to physical health.

References

Aegerter, A. M., Deforth, M., Johnston, V., Sjøgaard, G., Volken, T., Luomajoki H., et al. (2021). No evidence for an effect of working from home on neck pain and neck disability among Swiss office workers: Short-term impact of COVID-19. Eur Spine J, 30 (6), 1699–707.

Ahmed, E. T., & Fouda, K. Z. (2014). Prevalência de Dor Cervical entre Usuários de Computador com ou sem Exercícios Cervicais. Jokull Journal

Argus, M., & Pääsuke, M. (2021). Effects of the COVID-19 lockdown on musculoskeletal pain, physical activity, and work environment in Estonian office workers transitioning to working from home. Work, 69 (3), 741–9.

Baker, R., Coenen, P., Howie, E., Williamson, A., & Straker, L. (2018) The short term musculoskeletal and cognitive effects of prolonged sitting during office computer work. Int J Environ Res Public Health, 15 (8).

Bortolan, G. M. Z., Domenech, S. C., & Ferreira, M. G. G. (2021). Experiência do usuário de home office. Hum Fatores Des, 10 (19), 137–63

Canva Pty Ltd. Free design tool, United States, 2008.

Carpintero-Rubio C, Torres-Chica B, Guadrón-Romero MA, Visiers-Jiménez L, & Peña-Otero D. (2021). Perception of musculoskeletal pain in the state of confinement: Associated factors. Rev Lat Am Enfermagem. 29.

Carstensen T. B. (2012). The influence of psychosocial factors on recovery following acute whiplash trauma. Danish medical journal, 59 (12), B4560.

Chowdhury, S. K., Zhou, Y., Wan, B., Reddy, C., & Zhang, X. (2022). Neck Strength and Endurance and Associated Personal and Work-Related Factors. Human factors, 64 (6), 1013–1026.

Christensen J. O, & Knardahl S. (2014). Time-course of occupational psychological and social factors as predictors of new-onset and persistent neck pain: a three-wave prospective study over 4 years. Pain, 155 (7),1262-1271.

Cohen S. P. (2015). Epidemiology, diagnosis, and treatment of neck pain. Mayo Clinic proceedings, 90 (2), 284–299.

Collins J. D, & O’Sullivan L. W. (2015). Musculoskeletal disorder prevalence and psychosocial risk exposures by age and gender in a cohort of office based employees in two academic institutions. Int J Ind Ergon, 1 (46), 85–97.

Dos Santos, G. M. R. F., da Silva, M. E., & Belmonte, B. D. R. (2021). COVID-19: Emergency remote teaching and university professors’ mental health. Revista Brasileira de Saúde Materno Infantil, 21, S245–S251.

Fejer R, Kyvik K. O, & Hartvigsen J. (2006). The prevalence of neck pain in the world population: A systematic critical review of the literature. Eur Spine J, 15 (6), 834–48.

Ferreira G. D, Silva M. C, Rombaldi A. J, Wrege E. D, Siqueira F. V., & Hallal P. C. (2011). Prevalência de dor nas costas e fatores associados em adultos do Sul do Brasil: estudo de base populacional. Rev Bras Fisioter; 15 (1), 31–6.

Fowler J. H, Hill S. J, Levin R. 1,2, ,. 2020;000:1–16.

Genebra, C. V. D. S., Maciel, N. M., Bento, T. P. F., Simeão, S. F. A. P., & Vitta, A. De. (2017). Prevalence and factors associated with neck pain: a population-based study. Brazilian Journal of Physical Therapy, 21(4), 274–280.

Gerding, T., Syck, M., Daniel, D., Naylor, J., Kotowski, S. E., Gillespie, G. L., Freeman, A. M., Huston, T. R., & Davis, K. G. (2021). An assessment of ergonomic issues in the home offices of university employees sent home due to the COVID-19 pandemic. Work, 68(4), 981– 992.

Góes, G. S., Antonio, J., & Do Nascimento, S. (2020). Felipe dos Santos Martins NOTA TÉCNICA Potencial de teletrabalho na pandemia: um retrato no Brasil e no mundo1. 1–10

Gostin, L. O., & Wiley, L. F. (2020). Governmental Public Health Powers during the COVID-19 Pandemic: Stay-at-home Orders, Business Closures, and Travel Restrictions. JAMA - Journal of the American Medical Association, 323 (21), 2137–2138.

Graves, L. E. F., Murphy, R. C., Shepherd, S. O., Cabot, J., & Hopkins, N. D. (2015). Evaluation of sit-stand workstations in an office setting: A randomised controlled trial. BMC Public Health, 15(1)

Holzgreve F, Maltry L, Lampe J, Schmidt H, Bader A, Rey J, et al. (2018). The office work and stretch training (OST) study: An individualized and standardized approach for reducing musculoskeletal disorders in office workers. J Occup Med Toxicol, 13 (1).

Itens P, Revis R, & Uma P. (2015). Principais itens para relatar Revisões sistemáticas e Meta-análises: A recomendação PRISMA. Epidemiol e Serviços Saúde, ;24(2), 335–42.

Kaliniene G, Ustinaviciene R, Skemiene L, Vaiciulis V, & Vasilavicius P. (2016). Associations between musculoskeletal pain and work-related factors among public service sector computer workers in Kaunas County, Lithuania. BMC Musculoskelet Disord, 17 (1), 1–12.

Kazeminasab, S., Nejadghaderi, S. A., Amiri, P., Pourfathi, H., Araj-Khodaei, M., Sullman, M. J. M., Kolahi, A. A., & Safiri, S. (2022). Neck pain: global epidemiology, trends and risk factors. In BMC Musculoskeletal Disorders (Vol. 23, Issue 1). BioMed Central Ltd.

Kim, R., Wiest, C., Clark, K., Cook, C., & Horn, M. (2018). Identifying risk factors for first-episode neck pain: A systematic review. In Musculoskeletal Science and Practice (Vol. 33, pp. 77–83). Elsevier Ltd.

Khatri, S.; Mahendrakar, V. (2021). Neck pain and disability, an unwanted guest after the Covid-19 pandemic outbreak! How to deal with it? Turkish Journal of Physiotherapy and Rehabilitation, 32 (3), 6625-6629.

Kramer A, & Kramer K. Z. (2021). Since January 2020 Elsevier has created a COVID-19 resource centre with free information in English and Mandarin on the novel coronavirus COVID-19. The COVID-19 resource centre is hosted on Elsevier Connect , the company’s public news and information. Covid-19 Chall to SDG Glob, 14, (4), 293.

Kubrusly M, Coelho R. A, Augusto K. L, Peixoto Junior A. A, Santos D. C de O, & Oliveira C. M. C de. (2021). Percepção docente sobre a Aprendizagem Baseada em Problemas no ensino remoto durante a pandemia COVID-19. Res Soc Dev, 10 (5), e53510515280.

Lacaze D. H de C, Sacco I. de C. N, Rocha L. E, Pereira C. A de B, & Casarotto R. A. (2010). Stretching and joint mobilization exercises reduce call-center operators’ musculoskeletal discomfort and fatigue. Clinics, 65 (7), 657–62.

Louw S, Makwela S, Manas L, Meyer L, Terblanche D, & Brink Y. (2017). Effectiveness of.

Majumdar, P., Biswas, A., & Sahu, S. (2020). COVID-19 pandemic and lockdown: cause of sleep disruption, depression, somatic pain, and increased screen exposure of office workers and students of India. Chronobiology International, 37(8), 1191–1200.

Malta, D. C., Szwarcwald, C. L., Barros, M. B. de A., Gomes, C. S., Machado, Í. E., Souza Júnior, P. R. B. de, Romero, D. E., Lima, M. G., Damacena, G. N., Pina, M. de F., Freitas, M. I. de F., Werneck, A. O., Silva, D. R. P. da, Azevedo, L. O., & Gracie, R. (2020). A pandemia da COVID-19 e as mudanças no estilo de vida dos brasileiros adultos: um estudo transversal, 2020. Epidemiologia e Serviços de Saúde : Revista Do Sistema Único de Saúde Do Brasil, 29 (4), e2020407.

Moraes, G. A. (2007). Normas regulamentadoras comentadas. 6. ed. Rio de Janeiro: Gerenciamento Verde Editora.

Moretti A, Menna F, Aulicino M, Paoletta M, Liguori S, & Iolascon G. (2020). Characterization of home working population during covid-19 emergency: A cross-sectional analysis. Int J Environ Res Public Health, 17 (17), 1–13.

Pereira AS et al. (2018). Metodologia da pesquisa científica. /UFSM.

Pernold G, Mortimer M, Wiktorin C, Tornqvist E. W, & Vingård E. (2005). Musculoskeletal Intervention Center-Norrtälje Study Group. Neck/shoulder disorders in a general population: natural course and influence of physical exercise; a 5-year followup. Spine (Phila Pa 1976), 30 (13), E363-E368.

Piranveyseh P, Motamedzade M, Osatuke K, Mohammadfam I, Moghimbeigi A, Soltanzadeh A, et al. (2016). Association between psychosocial, organizational and personal factors and prevalence of musculoskeletal disorders in office workers. Int J Occup Saf Ergon, 22 (2), 267–73.

PNAD COVID19 - Pesquisa Nacional por Amostra de Domicílios; IBGE - INSTITUTO BRASILEIRO DE GEOGRAFIA E ESTATÍSTICA. Brasília: PNAD; IBGE, 2020.

Radulović A. H, Žaja R, Milošević M, Radulović B, Luketić I, & Božić T. (2021). Rad od kuće i mišićno-koštani bol tijekom epidemije COVID-19 - Pilot-istraživanje. Arh Hig Rada Toksikol, 72 (3), 232–9.

Rodrigues M. S. A, Leite R. D. V, Lelis C. M, & Chaves T. C. (2017). Differences in ergonomic and workstation factors between computer office workers with and without reported musculoskeletal pain. Work; 57 (4), 563–72.

Sampaio K. R. A, & Batista V. (2021). Análise Ergonômica do Trabalho (AET) no ambiente de escritório: Um estudo de caso em uma empresa na cidade de Manaus-AM. Res Soc Dev, 10 (7), e53110716478.

Sato M. I, Aguiar L. F, Freitas M. N. V de, Guerra I, & Martinez J. E. (2019). Cervicalgia entre estudantes de medicina: uma realidade multifatorial. Rev da Fac Ciências Médicas Sorocaba, 21 (2), 55–8.

Shaikh A, Devi O, & Patil A. (2021)> Work from Home on Back and Neck Pain among Employees during Covid-19 Pandemic. Quest Journals J Res Bus Manag [Internet], 9 (2), 2347–3002.

Soares J. C, Weber P, Trevisan M. E, Trevisan C. M, & Rossi A. G. (2012). Correlation between head posture, pain and disability index neck in women with complaints of neck pain. Phys Ther Res., 19, (1), 68–72.

Sousa A. K. C, Silva D. R. da, & Sousa D. S de. (2021). Prevalência de cervicalgia em estudantes universitários: uma revisão integrativa. Res Soc Dev, 10 (14), e53101422004.

Stanam A., Golla V., Vasa S. J, & Taylor R. D. (2019). Exposure to computer work and prevalence of musculoskeletal symptoms among university employees: A cross-sectional study. J Environ Health, 81 (7), 14–8.

Torales J, O’Higgins M, Castaldelli-Maia J. M, & Ventriglio A. (2020). The outbreak of COVID-19 coronavirus and its impact on global mental health. Int J Soc Psychiatry, 66 (4), 317–20.

Valipour Noroozi M, Hajibabaei M, Saki A, & Memari Z. (2015). Prevalence of Musculoskeletal Disorders Among Office Workers. Jundishapur J Heal Sci, 7(1).

Van Eerd, D., Munhall, C., Irvin, E., Rempel, D., Brewer, S., Van Der Beek, A. J., Dennerlein, J. T., Tullar, J., Skivington, K., Pinion, C., & Amick, B. (2016). Effectiveness of workplace interventions in the prevention of upper extremity musculoskeletal disorders and symptoms: An update of the evidence. In Occupational and Environmental Medicine (Vol. 73, Issue 1, pp. 62–70). BMJ Publishing Group.

Van Vledder, N., & Louw, Q. (2015). The effect of a workstation chair and computer screen height adjustment on neck and upper back musculoskeletal pain and sitting comfort in office workers. South African Journal of Physiotherapy, 71(1).

Vasseljen O., Woodhouse A., Bjørngaard J. H, & Leivseth L. (2013). Natural course of acute neck and low back pain in the general population: the HUNT study. Pain, 154 (8), 1237-1244.

Vos C. J, Verhagen A. P, Passchier J., & Koes B. W. (2008). Clinical course and prognostic factors in acute neck pain: an inception cohort study in general practice. Pain Med, 9 (5), 572-580.

Wade J. B, Price D. D, Hamer R. M, Schwartz S. M, & Hart R. P. (1990). An emotional component analysis of chronic pain. Pain, 40 (3), 303-10.

Ward J, & Coats J. (2017). Comparison of the BackJoy SitSmart Relief and Spine Buddy LT1 H/C Ergonomic Chair Supports on Short-Term Neck and Back Pain. J Manipulative Physiol Ther, 40 (1), 41–9.

Woo E. H. C, White P., & Lai C. W. K. (2016). Ergonomics standards and guidelines for computer workstation design and the impact on users’ health – a review. Ergonomics, 59 (3), 464–75.

World Health Organization. 2020. Coronavirus disease (COVID-19) dashboard

Xiao Y., Becerik-Gerber B., Lucas G., & Roll S. C. (2021). Impacts ofWorking from Home during COVID-19 Pandemic on Physical and Mental Well-Being of Office Workstation Users. J Occup Environ Med, 63 (3), 181–90

Influence of telework during the Covid-19 pandemic on cervical pain

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